UMLS:C0011053 - FACTA Search

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Query: UMLS:C0011053 (deafness)
10,271 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The nucleotide pair (np) 7472 insC mitochondrial DNA mutation in the tRNA(Ser)(UCN) gene is associated with sensorineural deafness, combined in some individuals with a wider syndrome including ataxia and myo-clonus. Previous studies in osteosarcoma cell cybrids revealed only a mild respiratory defect linked to the mutation. We have investigated the biochemical and molecular consequences of the mutation, using a panel of seven osteosarcoma cell cybrids containing 100% mutant mtDNA, plus two cybrids carrying 100% wild-type mtDNA from the same patient. The mutation is associated with a mild growth deficit in selective (galactose) medium that is only significant in combination with a reduced mtDNA copy number, suggesting a mechanism that might modulate clinical phenotype. The mutation results in a 65% drop in the steady-state level of tRNA(Ser)(UCN), but causes at most only a very mild and quantitative abnormality of mitochondrial protein synthesis, associated with modest hypersensitivity to doxycyclin. No evidence for a specific defect in aminoacylation was obtained, and unlike the case with the np 7445 mutation, the pattern of RNA processing of light strand transcripts of the ND6 region was not systematically altered. Comparing the np 7472 and np 7445 mutant phenotypes in cultured cells suggests that sensorineural deafness can result from a functional insufficiency of mitochondrial tRNA(Ser)(UCN), to which some cells of the auditory system are especially vulnerable.
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PMID:Molecular phenotype of the np 7472 deafness-associated mitochondrial mutation in osteosarcoma cell cybrids. 1054 8

The mitochondrial tRNA(Leu)(UUR) (R = A or G) gene possesses several hot spots for pathogenic mutations. A point mutation at nucleotide position 3243 or 3271 is associated with mitochondrial myopathy, encephalopathy, lactic acidosis, and stroke-like episodes and maternally inherited diabetes with deafness. Detailed studies on two tRNAs(Leu)(UUR) with the 3243 or 3271 mutation revealed some common characteristics in cybrid cells: (i) a decreased life span, resulting in a 70% decrease in the amounts of the tRNAs in the steady state, (ii) a slight decrease in the ratios of aminoacyl-tRNAs(Leu)(UUR) versus uncharged tRNAs(Leu)(UUR), and (iii) accurate aminoacylation with leucine without any misacylation. As a marked result, both of the mutant tRNA molecules were deficient in a modification of uridine that occurs in the normal tRNA(Leu)(UUR) at the first position of the anticodon. The lack of this modification may lead to the mistranslation of leucine into non-cognate phenylalanine codons by mutant tRNAs(Leu)(UUR), according to the mitochondrial wobble rule, and/or a decrease in the rate of mitochondrial protein synthesis. This finding could explain why two different mutations (3243 and 3271) manifest indistinguishable clinical features.
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PMID:Modification defect at anticodon wobble nucleotide of mitochondrial tRNAs(Leu)(UUR) with pathogenic mutations of mitochondrial myopathy, encephalopathy, lactic acidosis, and stroke-like episodes. 1066 May 92

Mitochondrial DNA (mtDNA) gene defects may play a role in the development of maternally inherited diabetes mellitus and deafness (MIDD). A family from Southern Italy who showed maternal transmission of type 2 diabetes mellitus with three individuals affected is described. A 10.4 kb deletion and mutations at nucleotide positions (np) 3243, 7445 and 11778 in the mtDNA of six relatives were sought. The mitochondrial np 3243 mutation of the tRNA Leu (UUR) gene was identified in a boy affected by optic atrophy and mental retardation, as well as in his diabetic mother. No other mutations or deletions were found. Our study points out the variable phenotypic expression of the np 3243 mtDNA mutation. This may suggest the presence of other mitochondrial or nuclear mutations required to modulate the phenotype. A clinical and metabolic follow-up of all family members was necessary to understand the role of the np 3243 mutation, especially in one child affected by optic atrophy and mental retardation. Further studies will be aimed at investigating the prevalence of mutations and deletions of mtDNA in type 2 diabetes mellitus.
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PMID:Mitochondrial DNA mutation at np 3243 in a family with maternally inherited diabetes mellitus. 1066 22

Animal mitochondrial protein synthesis systems contain two serine tRNAs (tRNAs(Ser)) corresponding to the codons AGY and UCN, each possessing an unusual secondary structure; the former lacks the entire D arm, and the latter has a slightly different cloverleaf structure. To elucidate whether these two tRNAs(Ser) can be recognized by the single animal mitochondrial seryl-tRNA synthetase (mt SerRS), we purified mt SerRS from bovine liver 2400-fold and showed that it can aminoacylate both of them. Specific interaction between mt SerRS and either of the tRNAs(Ser) was also observed in a gel retardation assay. cDNA cloning of bovine mt SerRS revealed that the deduced amino acid sequence of the enzyme contains 518 amino acid residues. The cDNAs of human and mouse mt SerRS were obtained by reverse transcription-polymerase chain reaction and expressed sequence tag data base searches. Elaborate inspection of primary sequences of mammalian mt SerRSs revealed diversity in the N-terminal domain responsible for tRNA recognition, indicating that the recognition mechanism of mammalian mt SerRS differs considerably from that of its prokaryotic counterpart. In addition, the human mt SerRS gene was found to be located on chromosome 19q13.1, to which the autosomal deafness locus DFNA4 is mapped.
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PMID:Characterization and tRNA recognition of mammalian mitochondrial seryl-tRNA synthetase. 1076 7

Mitochondrial DNA (mtDNA) variants have been implicated in the pathogenesis of diabetes. A mutation in the tRNA leucine gene at position 3243 has been previously reported in mtDNA of maternally inherited diabetes and deafness (MIDD) patients. Because the true prevalence of the mitochondrial origin in diabetes may be underestimated, we searched for potentially diabetogenic anomalies of mtDNA in 9 patients highly suspected of mitochondrial diabetes selected on maternally inheritance and clinical features. In order to detect high levels of mutant DNA, the mtDNA of muscle sample of 2 patients was totally sequenced and the 22 tRNA genes and flanking sequences of 7 patients were analyzed. A new homoplasmic mutation at position 8381 was found in the ATPase 8 gene of mtDNA of a MIDD patient. The prevalence of three homoplasmic variations (G1888A, T4216G, A4917G) was significantly higher in the small group of MIDD patients compared to controls and other subjects groups. This study demonstrated in our patients sample the high frequency of homoplasmic variations, which could play a role by themselves or in combination, in the pathogenesis of diabetes.
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PMID:Mitochondrial DNA variations in patients with maternally inherited diabetes and deafness syndrome. 1106 27

The authors studied a 47-year-old patient who presented with an association of deafness, acute cerebral stroke-like episode, leukoencephalopathy, and extensive basal ganglia calcifications. Late onset and neuroradiologic findings were atypical for MELAS syndrome (Mitochondrial Myopathy, Encephalopathy, Lactic Acidosis, and Strokelike episodes). A heteroplasmic G to A transition at nucleotide 4332 in the tRNA glutamine gene was identified in the patient's muscle mitochondrial DNA. The pathogenicity of the mutation was shown in single muscle fibers by the correlation between high mutation load and cytochrome c oxidase defect.
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PMID:Atypical MELAS syndrome associated with a new mitochondrial tRNA glutamine point mutation. 1117 12

Two genes for components of the mitochondrial translational apparatus, mitochondrial seryl-tRNA synthetase (SARSM) and mitoribosomal protein S12 (RPMS12) lie adjacent to one another on human chromosome 19, within the critical interval for the autosomal dominant deafness locus DFNA4. Both genes are plausible candidates for DFNA4, based on the fact that deafness mutations in mtDNA have been mapped both to tRNA-ser(UCN) and to the accuracy domain of the small subunit rRNA. We have sequenced the coding regions, proximal promoters, 5' and 3' UTR and splice junctional regions of both genes in two families with DFNA4-linked deafness and in controls. Novel polymorphisms 84425C>T, 83907A>G, 79485T>G, 79406C>T, 71755A>C and 68686C>G (numbered as in GenBank AC011455) were found in one or both families, but none is a plausible disease-causing mutation. Although regulatory mutations affecting either gene could still be involved in the phenotype, structural gene mutations affecting SARSM or RPMS12 can be excluded from consideration as the cause of DFNA4-linked deafness, at least in the families identified thus far.
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PMID:Novel coding-region polymorphisms in mitochondrial seryl-tRNA synthetase (SARSM) and mitoribosomal protein S12 (RPMS12) genes in DFNA4 autosomal dominant deafness families. 1131 63

This review provides a compact overview on the contribution of mutations in mtDNA to the pathogenesis of diabetes mellitus, with emphasis on the A3243G mutation in the tRNA(Leu, UUR) gene. This mutation associates in most individuals with maternally inherited diabetes and deafness (MIDD) whereas in some other carriers the MELAS syndrome or a progressive kidney failure is seen. Possible pathogenic mechanisms are discussed especially the question why particular mutations in mtDNA associate with distinct clinical entities. Mutations in mtDNA can affect the ATP production, thereby leading to particular clinical phenotypes such as muscle weakness. On the other hand mtDNA mutations may also alter the intracellular concentration of mitochondrial metabolites which can act as signalling molecules, such as Ca or glutamate. This situation may contribute to the development of particular phenotypes that are associated with distinct mtDNA mutations.
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PMID:Molecular and clinical aspects of mitochondrial diabetes mellitus. 1140 93

Eukaryotic tRNAs are transcribed as precursors. A 5'-end leader and 3'-end trailer are endonucleolytically removed by RNase P and 3'-tRNase before 3'-end CCA addition, aminoacylation, nuclear export and translation. 3'-End -CC can be a 3'-tRNase anti-determinant with the ability to prevent mature tRNA from recycling through 3'-tRNase. Twenty-two tRNAs punctuate the two rRNAs and 13 mRNAs in long, bidirectional mitochondrial transcripts. Accurate mitochondrial gene expression thus depends on endonucleolytic excision of tRNAs. Various mitochondrial diseases and syndromes could arise from defective tRNA end processing. The U7445C substitution in the human mitochondrial L-strand transcript (U74C directly following the discriminator base of tRNA(Ser(UCN))) causes non-syndromic deafness. The sequence of the precursor (G/UCU) becomes G/CCU, resembling a 3'-tRNase anti-determinant. We demonstrate that a tRNA(Ser(UCN)) precursor with the U7445C substitution cannot be processed in vitro by 3'-tRNase from human mitochondria. A 3'-end processing defect in this tRNA precursor could thus be responsible for mitochondrial disease.
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PMID:In vitro 3'-end endonucleolytic processing defect in a human mitochondrial tRNA(Ser(UCN)) precursor with the U7445C substitution, which causes non-syndromic deafness. 1169 20

A 27-year-old woman with short stature, sensorineural deafness, and renal dysfunction was hospitalized for evaluation. The serum lactate and pyruvate concentrations were elevated. The analysis of her mitochondrial DNA revealed an A-to-G mutation of the tRNA(Leu (UUR)) gene at the 3243 position. Renal biopsy revealed many sclerotic glomeruli, advanced tubulointerstitial changes, and numerous swollen mitochondria of the tubular cells. It was concluded that the patient's mitochondrial gene mutation was etiologically related to her nephropathy. The clinicopathologic features of this patient, as contrasted to the previous reports, suggested that renal involvement due to this mitochondrial gene mutation can be heterogeneous.
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PMID:Renal complications in a patient with A-to-G mutation of mitochondrial DNA at the 3243 position of leucine tRNA. 1186 97

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